Thermoplastic strips for sliding clasp fasteners



Dec. 10, 1968 cuc so T 3,414,948

THERMOPLASTIC STRIPS FOR SLIDING CLASP FASTENERS 3 Sheets-Sheet 1 Filed Sept. 29, 1966 E. E. CUCKSON ETAL 3,414,948

Dec. 10, 1968 THERMOPLASTIC STRIPS FOR SLIDING CLASP FASTENERS F iled Sept. 29, 1966 5 Sheets-Sheet 2 E. E. CUCKSON ETAL 3,414,948

THERMOPLASTIC STRIPS FOR SLIDING CLASP FASTENERS Dec. 10, 1968 3 Sheets-Sheet 5 Filed Sept. 29, 1966 United States Patent 3,414,948 THERMOPLASTIC STRIPS FOR SLIDING CLASP FASTENERS Eric Engel Cuckson and Arthur Llewelyn Jones, Penrith,

New South Wales, Australia, assignors, by mesne assignments, to Scovill Manufacturing Company, Waterbury, Conn., a corporation of Connecticut Filed Sept. 29, 1966, 582,918 8 Claims. (Cl. 24-205.13)

ABSTRACT OF THE DISCLOSURE A strip for a stringer of a sliding fastener which is constituted by a row of successive discrete transverse strip elements which are interconnected at their opposite ends by two longitudinally extending cords, each element having an enlarged central portion and opposed leg portions with enlargements at their ends through which the cords pass and are embedded. The strip is bent to a U- shape and stitched to a mounting tape.

This invention relates to the production of synthetic thermoplastic strips adapted to constitute the interlocking elements on a sliding clasp fastener. More particularly, the invention concerns strips of this kind which are capable of moulding or extrusion and are intended to be attached to a tape in a folded condition to form the stringer for the fastener.

Several attempts have already been made to produce a row of interlocking elements for a sliding clasp fastener as integral parts of a thermoplastic strip Which is firstly formed as a fiat strip from which a series of cut-outs along the length of the strip are removed. The resultant strip is of ladder-like structure entirely of synthetic thermoplastic material havingucontinuous longitudinal strands either extending in parallel lines, or in zig-zag fashion, laterally along the length of the strip. Prior to attachment of the strip to a tape it is folded across its width, -i.e. along its longitudinal center line, to become U-shaped in end elevation.

Due particularly to the double thickness of the continuous longitudinal strands of thermoplastic material, a degree of stiffness is imparted to the length of the stringer and therefore the resulting fastener. Furthermore, these strips are relatively brittle and susceptible to breakage if pinched.

It is the object of this invention to provide thermoplastic strips for the interlocking elements of sliding clasp fasteners, which are substantially free from the above defects.

The invention in one general form, therefore, provides a strip for use in the production of a stringer of a sliding clasp fastener, comprising a row of transversely extending strip'like thermoplastic elements, an enlarged central portion on each element, and a pair of parallel yarn threads onto which at spaced intervals the ends of the transverse elements are cast.

Also the invention provides a stringer for a sliding clasp fastener comprising a row of strip-like thermoplastic elements, a substantially rectangular enlargement on each end of each element, an enlarged central portion on each element, a narrow'stem joining each central portion with each end enlargement, an intermediate enlargement formed on each of said stems, each stem being bent substantially at right angles to produce a U-shaped longitudinal fold down the row of transverse elements, a mounting tape having one longitudinal edge portion located within the fold, and stitching in a longiutdinal line down said edge portion of the tape with individual stitches passing ice around respective ones of said stems between the intermediate enlargements and their adjacent rectangular end enlargements.

Two preferred embodiments of the invention are illustrated in the accompanying drawings, in which:

FIGURE 1 is a sectional side view of a thermoplastic extrusion machine, showing the thermoplastic strip of this invention being formed;

FIGURE 2 is a greatly enlarged fragmentary perspective view of a strip according to a first form of the invention;

FIGURE 3 is a fragmentary perspective view of the first form of strip bent along its length into U-shape and sewn to a tape;

FIGURE 4 is a fragmentary perspective view of a second form of strip;

FIGURE 5 is a fragmentary perspective view of the second form of strip bent along its length into U-shape and sewn to a tape; and

FIGURE 6 is a similar view to FIGURE 5 of the same strip but attached to one side of the tape.

According to one preferred form of production shown in FIGURE 1, thermoplastic strips 6 are produced by the following method. For each strip 6-, a pair of cords, such as cotton yarn threads 7 are fed in parallel alignment past the extrusion nozzle 8 of a thermoplastic extrusion machine 9. The machine 9 is designed and adjusted to discharge in semi molten state from the nozzle 8 a predetermined amount of thermoplastic material which is delivered to a casting roller 20 around which many pairs of the yarn threads 7 are passed. The profile of the roller 20 coacts with a lip '8A of the nozzle 8 to form a band 6A of material into one face of which is cast many closely spaced strips 6 each having a succession of elongated elements 10 on a respective pair of the yarn threads 7 preferably provided with opposed leg portions having enlarged ends 11 separated by an enlarged central portion 12 as shown in FIGURES 2 to 5. The enlarged ends 11 of each element 10 are formed around the cotton yarns 7. Preferably, before complete hardening of the thermoplastic material and before the band 6A has departed from the roller 20, a layer of the band 6A which forms a continuous backing 20B for the strips 6 is shaved from the band 6A by a knife 20A. After this stage the strips 6 are separate with their elements 10 connected only. by the yarn threads 7. With progression of the yarn threads 7 from the roller 20 a plurality of ladder-like strips 6 are obtained through the attachment of the elements 10 to the yarn threads 7 at uniformly spaced intervals along their lengths. In this way both the bonding of the elements 10 to the yarn threads 7 and the casting of the elements 10 to a desired shape are obtained in a single process. Since at the point of departure of the strips 6 from the roller 20 the thermoplastic material is firmly adhered to the yarn threads 7 they perform the task of withdrawing the elements 10 from the individual moulds in the periphery of the roller 20.

One form of construction of the strip 6 is shown in FIGURES 2 and 3 where the thickness of the element 10 is reduced at 13 adjacent either side of its enlarged central portion 12. The ladder-like strip 6 is subsequently folded at either side of its longitudinal center line as shown in FIGURE 3, that is along its length, so that each of the bridging elements 10 are bent at their two reduced portions forming stems 13. The result is to produce in the strip 6 a fold which renders it U-shaped in end elevation with the two yarn threads 7 located confronting and adjacent each other on one longitudinal edge 15 of the strip 6 and a projecting row of teeth 14 extending along the opposite longitudinal edge 16 of the strip 6.

The thermoplastic strip 6 may then be applied to a tape 17 to form a stringer for a sliding clasp fastener by locating a longitudinal edge portion 18 of the tape 17 within the bight of the U-shaped strip 6 and sewing the strip and tape together as at 19. The best location for the stitches 19Iwill invariably be about the stem 13 of the elements 10, i.e. between the enlarged end 11 and central portion 12. Therefore, the line of stitching 19 will extend along the length of the folded strip 6. Furthermore, instead of stitching 19, the strip 6 may be attached to tape 17 by cementing or by combination of both, or any other suitable means.

It will be seen that with the above construction the teeth 14 forming the interlocking elements of the fastener are linked together solely through interconnecting strands of cotton yarn threads 7, this deriving considerable flexibility and suppleness. Preferably the yarn threads 7 are so located within the enlarged ends 11 of the elements that in the folded condition of the strip 6 they lie close to the confronting faces at the root ends of the U-folded strip 6. In this Way greater flexibility is obtained since the yarn threads 7 are located close to the mid-point of the folded :strip 6 and therefore to the tape 17. Also, it will be preferred in the casting of the elements 10 to provide the enlarged central portions 12 thereof with domed outer faces, as shown, or opposite chamfers (not shown) located on the outer edges confronting the central portions 12 of adjacent elements 10. The ends 11 may be similarly shaped. Due to this provision, the teeth 14 subsequently formed which serve as interlocking elements 10 in the fastener, provide for more etfiicient engagement and separation of the stringers of a fastener.

When attachment to a tape 17 is effected by stitches 19 formed around the stems 13 of the fastener element 10, as shown in FIGURE 3, it may be desirable to provide additional means to anchor the :said elements in position. To this end a second form of strip 6A may be provided. This strip is shown in FIGURES 4 and 5. The elements 10A forming this strip 6A are provided with enlarged ends 11 and central portions 12 as before. Each stem 13A is provided with an additional enlargement 22 intermediate of :said enlarged end 11 and central portion 12.

When the strip 6A is bent into U-shaped configuration as shown in FIGURE 5, it will be stitched to a tape 17A with the loops of stitching 19A surrounding the stems 13A between the enlarged ends 11 and the adjacent enlargement 22. In this way each element 10A is locked to the tape 17A against longitudinal displacement with respect to the stems 13A. Alternatively, the strip 6 may be located upon one face of the tape 17 at its longitudinal edge portion 18 as illustrated by FIGURE 6.

The shape of the enlarged ends 1 1 in both embodiments is preferably as shown in which they are approximately rectangular with their length, i.e. greater dimension, extending longitudinally with the yarn threads 7. The length of the ends 11 should be such as to provide a narrow gap between adjacent ends which is spanned by the yarn 7. These provisions will give the slide of the slide fastener greater bearing surface and better anchorage of the elements 10 to the yarn threads 7. They also, to some extent, prevent breaking open of the fastener by resisting angling of its interlocking elements when the stringers are pinched by folding back upon themselves.

Several forms of thermoplastic strips have been described in the foregoing disclosure but it is to be understood that other forms are also feasible within the scope of this invention.

What we claim is:

1. A strip for use in the production of a stringer of a sliding fastener, comprising a row of transversely extending discrete strip-like thermoplastic elements, each element including an enlarged central portion, and opposed leg portions extending transversely from said central portion and defining respective sides of the strip; and two cords extending longitudinally along opposite sides of the strips, each transverse element including enlargements on the ends of the leg portions, the cords extending through the enlargement and being embedded therein, said enlargements extending from the leg portion longitudinally along the cord such that the enlargements of adjacent strips are spaced from one another, whereby said cords provide the sole interconnection between the elements.

2. A strip as claimed in claim 1, wherein said enlargements have a substantially rectangular shape.

3. A strip as claimed in claim 2, wherein each cord extends through the row of transverse elements offset from the major axis of the rectangular enlargements.

4. A strip as claimed in claim 3, wherein the rectangular enlargements have a longer dimension which extends in the direction of the cord.

5. A strip as claimed in claim 1, wherein said leg portions have narrow stem portions connecting the central portion of a transverse element with the two ends of the transverse element, and an intermediate enlargement on each of said stems.

6. A strip for use in the production of a stringer of a sliding clasp fastener, comprising a row of discrete strip-like thermoplastic elements, each element including an enlarged central portion, and opposed leg portions extending transversely from said central portion and defining respective sides of the strip; two cords extending longitudinally along opposite sides of the strips, each cord being secured to the respective legs portion of each element, each leg portion including a substantially rectangular enlargement on the outer end of such leg portion, the cords extending through the enlargements and being embedded therein, said enlargements extending from the leg portions longitudinally along the cord such that the enlargements of adjacent strips are spaced from one another, whereby said cords provide the sole interconnection between the elements, a narrow stem joining each central portion with each end enlargement, and an intermediate enlargement on each of said stems, the strip being longitudinally folded into 'U-shape so that the two cords are in confronting relation and said enlarged central portions protrude laterally along one longitudinal edge of the folded strip.

7. A stringer for a sliding clasp fastener comprising a row of transverse, discrete strip-like thermoplastic elements, each element including an enlarged central portion, and opposed leg portions extending transversely from said central portion and defining respectively sides of the strip; two cords extending longitudinally along opposite sides of the strips, each cord being secured to the respective leg portion of each element, each leg portion including a substantially rectangular enlargement on the outer end of such leg portion, the cords extending through the enlargements and being embedded therein, said enlargements extending from the leg portions longitudinally along the cord such that the enlargements of adjacent strips are spaced from one another, whereby said cords provide the sole interconnection between the elements, a narrow stem joining each central portion with each end enlargement, and an intermediate enlargement on each of said stems, each stem being bent substantially at right angles to produce a'U-shaped longitudinal fold along the row of transverse elements, a mounting tape having one longitudinal edge portion located within the fold, and a line of stitching extending longitudinally along said edge portion of the tape with individual stitches passing around respective stems between the intermediate enlargements and their adjacent rectangular end enlargements.

8. A stringer for a sliding clasp fastener comprising a row of transverse, discrete strip-like thermoplastic elements, each element including an enlarged central portion, and opposed leg portions extending from said central portion and defining respective sides of the strip; two cords extending longitudinally along opposite sides of the strips, each cord being secured to the respective leg portion of each element, each leg portion including a substantially rectangular enlargement 0n the outer end of such leg portion, the cords extending through the enlargements and being embedded therein, said enlargements extending from the leg portions longitudinally along the cord such that the enlargements of adjacent strips are spaced from one another, whereby said cords provide the sole interconnection between the elements, a narrow stem joining each central portion with each end enlargement, and an intermediate enlargement on each of said stems, each stern being bent substantially at right angles to produce a longitudinal fold along the row of transverse elements, a mounting tape having one longitudinal edge portion located to one side of the fold, and a line of stitching extending longitudinally along said edge portion of the tape with individual stitches passing around respective stems between the intermediate en- References Cited UNITED STATES PATENTS 2,242,794- 5/ 1941 Puschner. 2,496,925 2/ 1950 Winterhalter 24205 .13 X 3,328,857 7/1967 Burbank.

FOREIGN PATENTS 226,386 11/1959 Australia.

225,646 7/1962 Austria.

903,855 8/ 1962 Great Britain.

252,123 9/ 1948 Switzerland.

BERNARD A. GELAK, Primary Examiner. 

